Continuous vinyl grafting of cellulose



April 21, 1964 A. H. GRUBER ETAL 3,130,076

coNTINuous VINYL GRAFTING oF cELLULosE 2 Sheets-Sheet 1 Filed Sept. 29, 1961 April 21, 1964 A. H. GRUBER ETAL 3,130,076

CONTINUOUS VINYL GRAFTING OF CELLULOSE Filed Sept. 29, 1961 2 Sheets-Sheet 2 h yz INVENTORS. ARNOLD H. GRUBER CHARLES E L/GHT SE WELL 7T MOORE ayknw United States Patent O CONTiNlJUS VINYL GRAFTWG OF CELLULSE Arnold H. Gruber, Stamford, Charles E. Light, Darien,

and Sewell T. Moore, Stamford, Conn., assignors to American Cyanaxnid Company, New York, N.Y., a

corporation of Mairie Filed Sept. 29, 1961, Ser. No. 141,656 8 Claims. (Cl. 11S-8) This invention relates to an apparatus suitable for use in the continuous vinyl gr fting of cellulosic Webs. More particularly, this invention relates to an apparatus for the continuous grafting of a vinyl monomer onto a cellulosic backbone, such as paper, cotton, etc.

Vinyl grafting of cellulosic Webs is a very intricate process involving primarily the formation of free-radical sites on the cellulosic web utilizing various initiators and subsequently the polymerization of the vinyl monomer onto the web at the free radical sites. In so doing, polymeric chains are grafted onto the cellulosic web backbone and the utilized initiator is reduced to an inactive form. During the reaction, several side reactions can occur. Of particular concern is homopolymerization of the vinyl monomer which results in the formation of nongrafted polymers, and may necessitate the cessation of operation to rid the system of these hornopolymers. Other side reactions which may occur are hydrolysis of the vinyl monomer, grafting of the hydrolysis product, oxidation of monomer and excessive deactivation of the initiator. Due to the above-mentioned undesired side reactions, no apparatus has, before now, to our knowledge, been developed for the efficient continuous vinyl grafting of cellulosic Webs.

We have discovered a grafting apparatus which operates eihciently in the production of a grafted cellulosic web. This apparatus enables the continuous, uniform grafting of vinyl-type monomers onto cellulosic materials on a commercial scale. Additionally, the final grafted product produced by the apparatus of this invention is lugh in quality in respect to the percentage and completeness (evenness) of grafting. Also, since continuous grafting is now possible, our apparatus enables the production of a large quantity of a high quality product at a total cost which will still be commercially feasible.

It is an object of this invention to provide an apparatus for the continuous uniform vinyl grafting of cellulosic materials.

It is another object of the present invention to provide an apparatus for the continuous uniform vinyl grafting of cellulosic Webs which may be operated continuously without the formation of a substantial amount of vinyl homopolymer or other undesired compounds.

These and other objects of Ithe present invention Will become more apparent to those skilled in the art upon reading the more detailed description set forth hereinbelow.

It will be obvious to one skilled in the art that only the minimum amount of details and component parts of the apparatus are set forth in the drawing in order to describe the invention and for sake of simplicity.

According to our invention there is provided an apparatus for the continuous, uniform grafting of a cellulosic material which comprises an enclosed treatment ICC at a predetermined concentration, a third inlet conduit in said treatment tank adapted for the passage of cellulosic material into said treatment tank, guiding means in said treatment tank positioned so as to cause cellulosic material to flow substantially the complete length of said treatment tank beneath the surface of liquid present therein, a third outlet conduit for removal of cellulosic material from said treatment tank, means for causing cellulosic material to move through said treatment tank, circulation means adapted to control the ilow of liquid through said treatment tank, and means for controlling the concentration of the active liquors in said treatment tank.

ln order to set forth the method for operating our apparatus in a continuous reaction, referring now to FIG- URE l of the drawing, an aqueous solution or emulsion of a vinyl monomer from holding tank l0 is metered through line l2 by variable speed pump i4- and admixed with an acidic initiator solution pumped from holding tank 15 by variable speed pump 2li. For sake of example, the aqueous solution or emulsion of monomer Will comprise Water and ethyl acrylate or Water, ethyl acrylate and an emulsifying agent and the acid initiator solution will comprise ceric ammonium nitrate and nitric acid. During the continuous reaction, the blend of monomer and initiator is pumped through line 1S into an external circulation loop comprising line 19, heater 22, line 23, rotometer 24, line 2S, tank Z8, variable speed pump 3l) and line 32.

This external circulating loop is used to provide suitable and controlled circulation of liquid across the tank 2S and adequate temperature control of the liquid bath in the tank. The volume of liquid circulated in the circulating loop is signicantly greater than the volume of liquid make-up added from the monomer and catalyst holding tanks, lll and le, respectively. Turbulence, in the external circulating loop caused by variable speed pump 3l? also acts as a means of maintaining the emulsion.

Liquid distributors 26 distribute the monomer-initiator stream into the tank such that suitable turbulence will be provided across the reaction bath. A turbulent ow of the monomer-initiator mixture must be continually effected in tank 28 because any separation of the ethyl acrylate from the emulsion in any stagnant areas Within the tank may result in the homopolymerization of the ethyl acrylate. The turbulence caused by the distributors helps maintain a suitable liquid circulation and thereby, in addition to the prevention of the undesirable monomer polymerization as mentioned above, keeps the ingredients thoroughly mixed and aids materially in the level grafting of the ethyl acrylate onto the cellulosic material being treated.

A small amount of monomer-initiator mixture is Withdrawn from line 32 by pump 36. This Withdrawn monomer-initiator mixture is passed via line 38 to purge tank 4G where it is either sent to disposal or recovery units, not shown, via line lil. The rate of Withdrawal of the monomer-initiator mixture from line 32 and the rate of addition of monomer-initiator mixture through line 18 is such that the critical concentration of the reaction system in tank 28 is maintained constant.

Nitrogen from tank 42. is passed through line 44 and valve 53 and is admixed with a small amount of air flowing from tank 46 via line 4d and valve S0, in line 52. The mixed gases then oW through line 54 into tank 28. It has been found that a critical oxygen concentration must be present in tank 23 in order to aid in the prevention of the homopolymerization of the vinyl monomer present. Generally, the concentration of oxygen must be from about 0.75% to about 2.1% by volume of oxygen based on the total volume of gases present in tank 2S. A more complete discussion of this concept can be found in U.S. application 786,695, filed January 14, 1959, by Nicholas R. Segro, and now Patent No. 3,032,518.

In order to maintain this critical oxygen concentration in tank 28, an oxygen electrode, or other oxygen sensitive device, is positioned in the tank so that it is immersed in the liquid monomer-initiator mixture. This oxygen electrode (160), preferably a Beckman electrode, is connected via line 102 to recording meter and feedback device 104. This oxygen electrode is of the conventional type and measures the percent or concentration of oxygen present in the monomer-initiator reaction mixture. lf the oxygen content of the mixture is too high, less oxygen must be added to tank 23. To accomplish this result, valve 50 would be closed to prevent the influx of more oxygen into the tank. Practically, it is also possible to connect recording meter and feedback device 104 to valves Sil and 53 via dotted lines 196, 12@ and 12.4. rEhe feedback device will then activate valves 50 and 53, which may be selenoid valves, by emitting a signal, and accomplish the desired oxygen reduction automatically. If the oxygen concentration in the monomer-initiator mixture is too low, valve Sil may be opened manually and more oxygen is added, admixed with nitrogen, to tank 28 via line 54. Of course, the oxygen addition may also be controlled automatically upon activation of Valves Sil and 53 by signals emitted from recording meter and feedback device 194, as mentioned above in regard to the oxygen reduction. In this manner the ratio of oxygen to nitrogen can be increased or decreased whenever necessary in the total feed gas stream to maintain the oxygen concentration of the monomer-initiator mixture in tank 23 within the critical optimum range.

Oxygen sampling device 112, which may be any commercially available oxygen sensitive unit, is positioned in the treatment tank above the monomer-initiator mixture and measures the amount of oxygen in the atmosphere above the liquid by contact with oxygen analyzer 116 via line 114. Oxygen analyzer 116 is preferably a Beckman para-magnetic oxygen analyzer but any other type of analyzer may be used. This analyzer very accurately measures the concentration of oxygen in the atmosphere above the surface of the monomer-initiator mixture in tank 28. The analyzer may also effect automatic control of the atmosphere in tank 28 in the same manner as described above in regard to recording meter and feedback device 134, reducing or adding gas by activating valves 50 and 53 yvia lines 118, 124 and 126. It can be seen therefore, that the oxygen content of the atmosphere and of the monomer-initiator mixture is continually controlled manually or automatically. Oxygen analyzer 116 is normally used as a continuous oxygen recorder and to detect any leakage in the tank through which oxygen may be admitted. Recording meter and feedback device 164 is used to determine any fluxuation of the oxygen in the monomer-initiator mixture duey to variations in operating conditions or malfunction or the pumping system employed. Since the reaction is carried out at a slight positive pressure, one-way purge vent 110 is employed to relieve the pressure built up by the addition of more gas. To prevent excessive loss of monomer vapor in the exit gas stream, a major portion of stream may be recycled, with oxygen content and gas flow rate adjusted from tanks 42 and 46, in a manner not shown.

Paper or any other cellulosic material, in web or fiber form, admitted to the treatment tank is represented by line 56. A multiplicity of rollers or other guiding devices are positioned in the treatment tank so as to guide the paper through the tank while it is undergoing treatment. The paper is threaded over roller 53 into water dip bath 59 via rollers 60 and 62 and is removed from the bath via roller 64. Baffie 66 is attached to the top and sides of the water dip bath for the entire width thereof and extends downwardly into the water itself. This battle creates a sealed system thereby materially preventing oxygen from leaking into or out of the treatment tank.

The paper continues over roller 63 into tank 28. The paper continually flows substantially the entire length of tank 28 completely immersed in the monomer-initiator mixture guided by rollers 70 and '72.

We have found that it is preferred to have a low liquor to paper ratio in the tank in order to allow less time for the process to come into equilibrium. It must be realized that upon starting up of the apparatus, the monomer and initiator concentrations will decline and level off at equilibrium.

Additionally, the liquid to paper ratio in tank 28 should he maintained low because if a high ratio is maintained, too much of an inventory of vinyl monomer is held and catalyst may be lost due to the production of the cerous compound by reduction of the ceric catalyst. These results obviously are not economically feasible when the apparatus is operating on a commercial scale. The liquid level in the treatment tank 2S can be maintained by the pumping rates of the feed and purge pumping systems in order to assure that there will always be enough liquid in the tank to completely immerse the paper being grafted.

Once the pumping rates of the monomer-initiator stream are set (after the system is in equilibrium) the initiator inlet, monomer inlet, and purge outlet are effectively controlled by the pumping system so that further adjusting becomes substantially unnecessary. The initiator-monomer emulsion in treatment tank 28 is periodically sampled and analyzed so that the concentration kof initiator and monomer can be determined. If either one of these concentrations varies from the predetermined level, adjustment of the pumping rates of the feed and withdrawal streams is all that is necessary in order to compensate for the change. Although previous discussion has been limited to the addition of more monomer-initiator stream when the concentration of the liquid in the tank changes, it is also possible that only a portion of either of these streams, i.e. acid, water etc. need be added so as to compensate for any changes in, for example, pH. However, these concentrations or values are not as sensitive to change as those mentioned above and realignment of these values is generally only necessary after the apparatus has been operating for a long period of time.

The grafted paper is removed from tank 2S via rollers '74 and 76 and is washed in acetone wash bath 77 by threading it around rollers 7S and 80. Batlle 84 serves the same purpose as described above in regard to baffle 66. The washed paper is then removed from the acetone wash bath over rollers 82 and 86 and is washed with water in water wash zone 87. Rollers 88 and 90 cause the paper to be immersed in the water to effect removal of any acetone absorbed thereon. Excess acetone may be removed from the paper by steaming, with the acetone being recovered and subsequently reused, by incorporating a Vsteam treatment zone between acetone washbath 77 and water'wash zone 87. The grafted paper product is removed from the system over roller 92 as represented by line 94 and is taken up on roller 96. Motor 98 is attached either electrically or mechanically to roller 96 and other rollers in the apparatus to adequately control the paper feed rate throughout the system.

Internal squeeze rolls, not shown, may be positioned throughout the apparatus to minimize liquid carry-over on the paper from zone to zone.

The residence time of the cellulosic web in tank 28 is important in order to achieve the desired degree of grafting of the vinyl monomer thereon. Depending upon the vinyl monomer uti1ized the cellulosic web, the initiator, the temperature etc., the residence time of the web will vary. However, it is a relatively simple task to determine the residence time by carrying out an initial run before setting the apparatus up for commercial production to determine just how much grafting occurs with the particular web, initiator etc. being utilized. Adjustment of the concentration of any of these components of the system can then be accomplished to produce the desired grafting etiiciency. In this Way, effective grafting of the paper can be achieved in the minimum amount of time and at a maximum eiiiciency.

FIGURE 2 of the drawing discloses a modification of the treatment tank wherein the residence time of the cellulosic web can be varied in order to effect the degree of contacting of the web with the grafting solution.

FIGURE 2 represents a tank modification wherein various staggered rollers are substituted for rollers 79 and 72 of FIGURE l. In this iigure, cellulosic material represented by line 200 is threaded into treatment tank 201 from water dip bath 202 over roller 203. Rollers 204 to 214 are positioned in tank 201 so as to create a long residence time in the tank for the cellulosic web undergoing grafting. After being threaded around the last roller 214, the web is withdrawn from tank 201 over roller 215 and then into acetone wash bath 216. In this modification the initiator-monomer stream can be added to the tank via line 217 and distributor 218 which consists of an elongated tube having holes in the upper portion thereof through Which the liquid may dow. The initiator-monomer liquid is withdrawn from the tank via line 22%. The nitrogen-air stream may be added via line 2l9 and be distributed by the same distributor 218 as distributes the monomer-initiator stream. Oxygen electrode 221 and oxygen sampling device 223 are positioned Similar to the corresponding instruments 100 and 112, respectively, in FIGURE 1.

In respect to the reaction conditions maintained in the treatment tank, the grafting may be carried out at temperatures between about 5 C. and 100 C. but preferably at temperatures between about C. and 60 C. Although the process may be carried out under atmospheric pressure, a slight positive pressure is preferred in order to reduce the possibility of leakage of oxygen into the system. The pH of the monomer-initiator system must be maintained at a value below about 3.5. This pH is maintained by addition of various inorganic acids to the initiator-monomer mixture in the catalyst feed tank.

The amount of initiator which is utilized in the practice of the process of the present invention may be varied over fairly wide limits. For example, one may utilize from about lO-6 to 1 mole of ceric ion per mole of po lymerizable monomer. Preferably, one would use between 10*3 to 10-l mole of ceric ion per mole of polymerizable monomer. Ceric ion is preferably introduced into the reaction mixture according to the present invention in the form of a ceric salt. Among the salts adapted for use in the present invention are ceric nitrate, ceric sulfate, ceric ammonium nitrate, ceric ammonium sulfate, ceric ammonium pyrophosphate, ceric iodate, ceric salts of organic acids, eg., cerium naphthenate and cerium linoleate and the like. These compounds may be employed singly or in combination with one another. Ceric compounds which are capable of forming ceric salts in situ under the acid conditions of the polymerization reaction such as ceric oxide, ceric hydroxide and the like may also be used.

In the practice of the process of the present invention, when an aqueous emulsion technique is used, one Will choose to make use of an emulsifying agent of which there are many known in the art. inasmuch as the process practiced in the apparatus of the present invention, including the aqueous emulsion processes are preferably carried out at pH values not greater than 3.5, it is preferred to make use of those emulsifying agents which do not tend to precipitate from an acid medium particularly, one within the pH range of operation and in addition, agents which are inert to the oxidation character of ceric ion. The amount of emulsifying agent used will depend in some measure on degree of water insolubility of the components used in the reaction, namely, the ethyl acry- 6 late monomer, the cellulosic material and the ceric salt. At any rate, the amounts conventionally used as a range will find adequate application in the practice of the present invention.

Generally the reaction process is carried out as set forth in United States Patent 2,922,768, patented January 26, 1960, with the emulsifying agents disclosed therein also being applicable in the present invention.

We claim:

1. An apparatus for the continuous, uniform grafting of a Vinyl monomer onto the exposed faces of a continuous cellulosic material which comprises (a) a closed treatment tank,

(b) a liquid circulation loop functionally cooperating with said tank to circulate a liquid in said tank, control its temperature, control the concentration of initiator and monomer therein, and provide liquid turbulence, said loop comprising (l) a liquid withdrawal line leading from said tank below the level of a liquid therein, to withdraw liquid from the tank,

(2) a variable speed pump,

(3) heating means for controlling the temperature of liquid circulated through said line, and thereby the temperature of liquid in said tank,

(4) means to introduce the withdrawn, temperature controlled liquid back into said tank closely adjacent to, and having a velocity with respect to, a moving web of cellulosic material in said tank, thereby causing turbulence of liquid in said tank,

(c) variable speed pumping means to introduce an initiator-containing liquid into said loop at such a rate as to maintain a desired initiator concentration in said tank,

(d) variable speed pumping means to introduce a monomer-containing liquid into said loop at such a rate as to maintain a desired monomer concentration in said tank,

(e) means to introduce an oxygen-containing gas into said tank,

(f) means to introduce a nitrogen-containing gas into said tank,

(g) a gas purge vent leading from said tank,

(h) means for controlling the means to introduce oxygen and nitrogen-containing gases so as to maintain oxygen in said tank at a predetermined concentration,

(i) means for introducing cellulosic material into said tank,

(j) guiding means positioned in said tank to cause said cellulosic material to pass substantially the complete length of said tank below the liquid level therein,

(k) means for removing cellulosic material from said tank and (l) means for causing cellulosic material to move through said tank in conformity with said guiding means.

2. An apparatus for the continuous, uniform grafting of a vinyl monomer on the exposed faces of a cellulosic material which comprises (a) a closed treatment tank,

(b) a monomer-initiator liquid circulation loop functionally cooperating with said tank to circulate a monomer-initiator in said tank, control its temperature, control the concentration of initiator, and monomer therein, and provide liquid turbulence, said loop comprising (l) a monomer-initiator liquid Withdrawal line leading from said tank below the level of a monomer-initiator liquid therein, to withdraw monomer-initiator liquid from the tank,

(2) a variable speed pump,

`(3*) heating means for controlling the temperature of monomer-initiator liquid circulated through said line, and thereby the temperature of monomer-initiator liquid in said tank,

i(4) means -to introduce the withdrawn, temperature controlled monomer-initiator liquid back into said tank closely adjacent to, and having a velocity with respect to, a moving web of cellulosic material in said tank, thereby causing turbulence of monomer-initiator liquid in said t-ank,

(c) vaniable speed pumping means to introduce an initiator-containing liquid into said loop at such a rate as to maintain a desired initiator concentration in said tank,

(d) variable speed pumping means to introduce a monomer-containing liquid into said loop at such a rate as to maintain a desired monomer concentration in said tank,

(e) means to introduce an oxygen-containing gas into said tank,

(f) means to introduce a nitrogen-containing gas into said tank,

(g) a gas purge vent leading Ifrom said tank,

(It) means for controlling the means to introduce oxygen and nitrogen-containing gases `so as to maintain oxygen in said tank yat a predetermined concentration,

(i) means for introducing cellulosic material into said tank,

(j) guiding means positioned in said tank to cause said cellulosic material to pass substantially the complete length of said tank below the liquid level therein,

(k) means for removing cellulos-ic material from said tank and (I) means for causing cellulosic material to move through said tank in conformity with said guiding means.

3. An :apparatus for the continuous, uniform grafting of a vinyl monomer on the exposed faces of a continuous cellulosic material which comprises (a) la closed treatment tank,

(b) a liquid circulation loop functionally cooperating with said tank to circulate a liquid in said tank, control its temperature, control the concentration of initiator and monomer. therein, and provide liquid turbulence, said loop comprising A(l) a liquid ywithdrawal line leading from said tank below the ilevel of a liquid therein, to Withdraw liquid `from the tank,

y(2) a rvariable speed pump,

(3) `heating means for controlling the temperature of liquid circulated through said line, and thereby the temperature of liquid in said tank,

y(4) means lto introduce the Withdrawn, temperature controlled liquid back into said tank closely adjacent to, and having a velocity with respect to, a moving web of cellulosic material in said tank, thereby causing turbulence of iliquid in said tank,

(c) variable speed pumping means to introduce an initiator-containing liquid into said loop at such a rate as to maintain a desired initiator concentration in said tank,

(d) variable speed pumping means to introduce a monomer-containing liquid into said loop at such a rate `as to maintain a desired monomer concentration in said tank,

(e) means to introduce an oxygen-containing gas into said tank,

(f) means to introduce a nitrogen-containing ygas into said tank,

(g) a gas purge vent leading from said tank,

(h) an loxygen sensitive device in the lower portion of said tank below the liquid level thereof for determining the oxygen concentration of liquid in said tank,

(i) a second oxygen sensitiv-e device in the upper portion f said tank above the surface of a liquid present Cil therein for determining the oxygen concentration of the atmosphere in said tank,

(j) a recording meter and `feed back device connected to said first oxygen sensitive device,

(k) an oxygen analyzing device connected to said second oxygen sensitive device,

( I signal-activated valve means positioned in said oxygen-containing gas and nitrogen-contaning gas introduction means responsive to said oxygen analyzing device and said recording meter and feed back device so as to maintain the oxygen concentration in said tank at a predetermined concentration by control of the introduction of the oxygen and nitrogen-.containing gases,

(m) means for introducing cellulosic material into said tank,

(n) `guiding means positioned in said tank to cause said cellulosic material to pass substantially the complete length of said tank lbelow the liquid level therein,

(o) means lfor removing cellulosic material from said tank, and

(p) means for causing cellulosic material to move through said tank in conformity with said guiding means.

4. An apparatus for the continuous, uniform grafting of a vinyl monomer on the exposed faces of a continuous cellulosic material which comprises (a) a closed treatment tank,

(b) a monomer-initiator liquid circulation loop functionally cooperating with said tank to circulate a monomer-initiator liquid in said tank, control its temperature, control the concentration of initiator and monomer therein, and provide monomer-initiator liquid turbulence, said loop comprising (l) a monomer-initiator liquid Withdrawal line leading from said tank below the level of a monomer-initiator liquid therein to Withdraw monomer-initiator liquid from the'tank,

(2) a variable speed pump,

(3) heating means for controlling the temperature of monomer-initiator liquid circulated through said line, and thereby the temperature of monomer-initiator liquid in said tank,

(4) means to introduce the Withdrawn, temperature controlled monomer-initiator liquid back into said tank closely adjacent to, and having a velocity with respect to, a moving web of cellulosic material in said tank, thereby causing turbulence of monomer-initiator liquid in said tank,

(c) variable speed pumping means to introduce an initiator-containing liquid into said loop at such a rate as to maintain a desired initiator concentration in said tank,

(d) variable speed pumping means to introduce a monomer-containing liquid into said loop at such a rate as to maintain a desired monomer concentration in said tank,

(e) means to introduce an oxygen-containing gas into said tank,

(f) means to introduce a nitrogen-containing gas into said tank,

(g) a gas purge vent leading from said tank,

(h) an oxygen sensitive device in the lower portion of said tank below the monomer-initiator liquid level thereof for determining the oxygen concentration of monomer-initiator liquid in said tank,

(i) a second oxygen sensitive device in the upper portion of said tank above the monomer-initiator liquid level thereof for determining the oxygen concentration of the atmosphere in said tank,

U) a recording meter and feed back device connected to said iirst oxygen sensitive device,

(k) an oxygen analyzing device connected to said second oxygen sensitive device,

(I) signal-activated valve means positioned in said oxygen-containing gas and nitrogen-containing gas introduction means responsive to said oxygen analyzing device and said recording meter and feed back device so as to maintain the oxygen concentration in said tank at a predetermined concentration by control of the introduction of the oxygen and nitrogencontaining gases,

(m) means for introducing cellulosic material into said tank,

(n) guiding means positioned in said tank to cause said cellulosic material to pass substantially the complete length of said tank below the monomer-initiator liquid level therein,

(o) means for removing cellulosic material from said tank and (p) means for causing cellulosic material to move through said tank in conformity with said guiding means.

5. An apparatus for the continuous, uniform grafting of a vinyl monomer on the exposed faces of a continuous cellulosic web which comprises (a) an elongated, closed treatment tank,

(b) a monomer-initiator liquid circulation loop functionally cooperating with said tank to circulate monomer-initiator liquid in said tank, control its temperature, control the concentration of initiator and monomer therein, and provide liquid turbulence, said loop comprising (1) a monomer-initiator liquid Withdrawal line leading from said tank below the level of a monomer-initiator liquid therein, to withdraw monomer-initiator liquid from the tank,

(2) a variable speed pump,

(3) heating means for controlling the temperature of monomer-initiator liquid circulated through said line, and thereby the temperature of monomer-initiator liquid in said tank,

(4) means to introduce the Withdrawn, temperature controlled monomer-initiator liquid back into said tank closely adjacent to, and having a velocity with respect to, a moving web of cellulosic material in said tank, thereby causing turbulence of monomer-initiator liquid in said tank,

(c) variable speed pumping means to introduce an initiator-containing liquid into said loop at such a rate as to maintain a desired initiator concentration in said tank,

(d) variable speed pumping means to introduce a monomer-containing liquid into Said loop at such a rate as to maintain a desired monomer concentration in said tank,

(e) means to introduce an oxygen-containing gas into said tank,

(f) means to introduce a nitrogen-containing gas into said tank,

(g) a gas purge vent leading from said tank,

(lz) an oxygen electrode positioned in the lower porl@ tion of said tank so as to be sub-surface to monomerinitiator liquid therein, for determining the oxygen concentration of monomer-liquid in said tank,

(i) an oxygen sampling device positioned in the upper portion of said tank above the surface of a monomerinitiator liquid present therein, for determining the oxygen concentration of the atmosphere in said tank,

(j) an oxygen analyzing device connected to said oXygen sampling device,

(k) a recording meter and feed back device connected to said oxygen electrode,

(l) signal-activated valve means positioned in said oxygen-containing gas and nitrogen-containing gas introduction means responsive to said oxygen analyzing device and said recording meter and feed back device so as to control the ilow of gas into said tank when the oxygen concentration therein varies beyond the limits of a predetermined range as determined by said oxygen sampling device and said oxygen electrode,

(m) means for introducing a cellulosic web into said tank, said means being gas impermeable,

(n) guiding means positioned in said tank to cause said cellulosic web to pass substantially the complete length of said tank below the level of monomer-initiator liquid present therein,

(o) means for removing cellulosic web from said tank,

said means being gas impermeable, and

(p) means for causing the cellulosic web to move through said tank in conformity with said guiding means.

6. Apparatus according to claim 1 wherein the cellulosic material introduction means and the cellulosic material removing means are sealed so as to prevent the seepage of the atmosphere into and from said tank.

7. Apparatus according to claim 1 wherein said circulation loop contains a rotometer to measure the amount of withdrawn temperature controlled liquid introduced back into said tank.

8. Apparatus according to claim 1 wherein said sealed tank contains an acetone Wash bath and a water Wash zone so as to cause the puriiication of grafted cellulosic material in said tank.

References Cited in the file of this patent UNITED STATES PATENTS 1,699,391 Davis Jan. 15, 1929 2,341,727 Krogh Feb. 15, 1944 2,372,599 Nachtman Mar. 27, 1945 2,468,530 Weeldenburg Apr. 26, 1949 2,731,820 Burkardt et al Jan. 24, 1956 2,752,852 Oiutt July 3, 1956 2,905,522 Fabringer Sept. 22, 1959 2,922,768 Mino et al lan. 26, 1960 2,927,871 Mancke et al. Mar. 8, 1960 2,995,922 Firth et al. Aug. 15, 1961 3,009,864 Webb Nov. 21, 1961 3,035,431 Smith et al. May 27, 1962 3,044,408 Mellott July 17, 1962 3,046,078 Salsbnry et al. July 24, 1962 

1. AN APPARATUS FOR THE CONTINUOUS, UNIFORM GRAFTING OF A VINYL MONOMER ONTO THE EXPOSED FACES OF A CONTINUOUS CELLULOSIC MATERIAL WHICH COMPRISES (A) A CLOSED TREATMENT TANK, (B) A LIQUID CIRCULATION LOOP FUNCTIONALLY COOPERATING WITH SAID TANK TO CIRCULATE A LIQUID IN SAID TANK, CONTROL ITS TEMPERATURE, CONTROL THE CONCENTRATION OF INTITATOR AND MONOMER THEREIN, AND PROVIDE LIQUID TURBULENCE, SAID LOOP COMPRISING (1) A LIQUID WITHDRAWAL LINE LEADING FROM SAID TANK BELOW THE LEVEL OF A LIQUID THEREIN, TO WITHDRAW LIQUID FROM THE TANK, (2) A VARIABLE SPEED PUMP, (3) HEATING MEANS FOR CONTROLLING THE TEMPERATURE OF LIQUID CIRCULATED THROUGH SAID LINE, AND THEREBY THE TEMPERATURE OF LIQUID IN SAID TANK, (4) MEANS TO INTRODUCE THE WITHDRAWN, TEMPERATURE CONTROLLED LIQUID BACK INTO SAID TANK CLOSELY ADJACENT TO, AND HAVING A VELOCITY WITH RESPECT TO, A MOVING WEB OF CELLULOSIC MATERIAL IN SAID TANK, THEREBY CAUSING TURBULENCE OF LIQUID IN SAID TANK, (C) VARIABLE SPEED PUMPING MEANS TO INTRODUCE AN INITIATOR-CONTAINING LIQUID INTO SAID LOOP AT SUCH A RATE AS TO MAINTAIN A DESIRED INITIATOR CONCENTRATION IN SAID TANK, 